Harvester-thresher frame structure



Sept. 22, 1953 N. R. KRAUSE ET AL 2,

HARVESTER-THRESHER FRAME STRUCTURE Original Filed April 7, 1942 12 Sheets-Sheet l JHEF/VA/Y C H5777 Sept. 22, 1953 N. R. KRAUSE ET AL 7 HARVESTER-THRESHER FRAME STRUCTURE Original Filed April '7, 1942 12 Sheets-Sheet 2 I gy. 2 I? Sept. 22, 1953 N. R. KRAusE ET AL HARVESTER-THRESHER FRAME STRUCTURE Original Filed April 7, 1942 12 Sheets-Sheet 3 M w M m m E 3 K y F. M .---||I| N m m M2 f R M all p E: 2. W

p 1953 N. R. KRAUSE ET AL 2,652,677

HARVESTER-THRESHER FRAME STRUCTURE Original Filed April '7, 1942 12 Sheets-Sheet 4 ilm EVWJBDM Sept. 22, 1953 N. R. KRAUSE ET AL HARVESTER-THRESHER FRAME STRUCTURE l2 Sheets-Sheet 5 Original Filed April 7, 1942 Sept. 1953 N- R. KRAUSE ETAL 2,652,677

HARVESTER-THRESHER FRAME STRUCTURE Original Filed April '7, 1942 12 Sheets-Sheet 6 a woe/m 09/97/40 H, /r/a4//5 Sept. 22, 1953 N. R. KRAUSE ET AL 2,652,677

HARVESTER-THRESHER FRAME STRUCTURE Original Filed April 7, 194.2 12 Sheets-Sheet 8 Sept. 22, 1953 N. R. KRAUSE ETAL HARVESTER-THRESHER FRAME STRUCTURE l2 Sheets-Sheet 9 Original Filed April 7, 1942 IIIIIIII NUF/V/I/Y R 1 11914055 J/ /EF/VA/Y C. #5777.

N. R. KRAUSE ET AL HARVESTER-THRESHER FRAME STRUCTURE Original Filed April 7, 1942 Sept. 22, 1953 12 Sheets-Sheet 10 Sept. 22, 1953 N. R. KRAUSE ET AL HARVESTER-THRESHER FRAME STRUCTURE l2 Sheets-Sheet 12 Original Filed April 7, 1942 NvN Patented Sept. 22, 1953 TENT OFFICE HARVESTER-THRESHER FRAME STRUCTURE Norman R. Krause and Sherman C. Heth, Racine, Wis., assignors to J. I. Case Company, Racine, Wis., a corporation of Wisconsin Continuation of application Serial No. 438,014, April 7, 1942. This application December 11, 1948, Serial No. 64,822

3 Claims.

The present invention relates to harvesting machines and more particularly to machines for cutting and threshing grains as a single operation, commonly known as combination harvester threshers or combines, this application being a continuation of the application of Norman R. Krause et al., for Harvester Threshers, Serial No. 438,014, filed April '7, 1942, and now abandoned.

An object of the invention is to generally improve the construction and operation of machines of this class.

A further object is to provide a novel general structure 01' framing for such a machine.

Further objects are to provide an improved harvester or header construction and means for supporting it; improved feeding means for conveying grain from the header to the threshing mechanism; an improved sickle drive; improved subcombinations of the general machine structure and other expedients looking toward a realization of the above objects.

A further object is to provide a novel driving organization for such a machine resulting in extreme reliability, and economy in manufacture and maintenance.

Further objects and advantages of the invention will become apparent from a consideration of the following detailed description taken in connection with the accompanying drawings whereina satisfactory embodiment of the inven tion is shown. However, it is to be understood that the invention is not limited to the details disclosed but includes all such variations and modifications as fall within the spirit of the invention as herein expressed.

Figure 1 is a perspective view taken from above and to the right of an illustrative machine embodying the invention.

Fig. 2 is a plan view on a slightly larger scale than 1, of a base frame and drawbar construction, constituting part of the machine.

Fig. 3 is a fragmentary left side elevation on substantially the same scale as Fig. 1, of the machine shown in Fig. 1, with the left wall and other parts removed to show the interior, substantially along line 33 in Fig. 1

Fig. 4 is a perspective view on a substantially enlarged scale taken from the left and front of the machine with parts removed and others broken away.

Fig. 5 is a perspective view on substantially the same scale as Fig. 4, of the front portion of a modified construction of combine, taken from the right side.

Fig. 6 is a similar view of the same machine on the same scale as Fig. 5, taken from a point further to the rear and looking forward.

Fig. 7 is a vertical sectional view on the line ll' of Fig- 3 on a substantially enlarged scale.

Fig. 8 is a plan view on substantially the same scale as Fig. '7, with parts broken away and in section, of power take-01f mechanism indicated in Figs. 1 and '7.

Fig. 9 is a left side elevation of a portion of Fig. 8, drawn to the same scale as Fig. 8.

Fig. 10 is a vertical sectional view on the line Iii-10 of Fig. 3, greatly enlarged and with parts broken away. 4

Fig. 11 is a plan view of certain mechanism indicated in Figs. 4 and 10, drawn to substantially the same scale as Fig. 4.

Fig. 12 is a perspective view on a slightly enlarged scale with parts broken away of a portion of the mechanism indicated in Fig. 11.

Fig. 13 is a perspective view of certain mechanism indicated in Figs. 1 and 10, drawn to a smaller scale than Fig. 10.

I Fig. 14 is a vertical sectional view on a reduced scale taken on the line 14-44 of Fig. 10.

Fig. 15 is a perspective view of a chain raddle assembly indicated in Figs. 1, 3 and 16, and drawn to a larger scale than Fig. 3.

Fig. 16 is an enlarged side elevation of a portion of the machine indicated in Fig. 3 with parts broken away to show the interior.

Fig. 17 is a front view of a threshing cylinder or element and accompanying feed plate, drawn to the same scale as Fig. 16.

' Fig. 18 is a view of a portion of Fig. 16 to the same scale showing a chain tightening mechanism.

Fig. 19 is a perspective view taken from above, in front, and to the left, of a straw rack or straw walker indicated in Fig. 3, and enlarged.

Fig. 20 is an enlarged left side elevation of a portion of the machine shown in Fig. 3 with parts in section.

Fig. 21 is a vertical sectional view of an unloading auger assembly taken on the line 21-2! of Fig. 3, enlarged.

As seen in Fig. L'the machine constituting the illustrative embodiment comprises a main body portion generally designated as l5 constituting the thresher part and to which the other portions are attached and by which they are supported on wheels as 16 and I! (Fig. 2). The machine is propelled by a draw bar 18 connected in any suitable or well-known manner with a tractor generally designated as [9 of any suitable or well-known construction. Body portion i5 also carries a harvester portion header or --uger though generally designated as 2i] suporteol from body portion if: as will appear and grain bin generally designated as 2! for receiving a crop as it is harvested. An engine 22,

6, may be carried by the machine for actuating the mechanism thereof while under certain conditions engine 22 may be dispensed with as will appear and the mechanism may be operated from a power source on the tractor.

While a specific embodiment of the machine has been shown and described in specific terms, it is to be understood that sprockets and chains, for example, might be replaced by pulleys and belts, or other equivalent expedients Within the contemplation of the invention, and the use of the terms sprockets and chains or any other specific terms in this description, is not intended to limit the invention to such specific construction or in any manner.

An important point of novelty in the present invention is th general framing or structur of the combine. The whole machine in the present illustrative embodiment is balanced or substantially balanced over an axle 23 carried by above mentioned wheels 16 and I1. Axle 23 has a base element generally designated as 24 fixed therewith and comprising front and rear members 25 and 28, Fig. 2, and longitudinal members 2? and 23 forming a roughly rectangular frame. Converging end portions 29 and 33 .form a triangle with longitudinal member 28 and are united with axle 23 adjacent wheel HS. Front and rear members 25 and 23 are intersected by forwardly extending members 3| and 32, also carried by axle 23 and united to each other at 33 to form above mentioned draw bar I8. In this manner draw bar I8 is very strongly and rigidly united with base member 24 and accordingly with the rest of the combine.

Extending upwardly from base member 24 in th present instance are four uprights, columns, or struts, 34, 3-5, 33, and 31, base member 24 and uprights 34, 35, 3B and 31 together forming a very stable upstanding frame-work from which the major elements of the combine may be conveniently supported.

As seen in Fig. 1, member 3'! extends upwardly for some distance and then bends to the rear so as to have a substantially horizontal portion 38 which extends rearwardly and joins abovementioned upright 36. Upright 31 also carries a harvester pivot plate or support 39 upon which rests an upright 40 extending upwardly to carry above-mentioned grain bin 2|. In effect, therefore, upright Bl and upright 40 may be considered as a continuous element or column extending from base member 24 all the way to grain bin 25 for carrying the very considerable weight of the load of grain directly from base member 24. In similar manner an upright 4| is joined to above mentioned upright 35. Upright 3t has an upright 42 fixed thereto in any suitable manner and extending also to grain bin 2| Uprights and 42 therefore be considered as a unitary column or support extending continuously from base member 24 to grain bin 2] and in similar manner above mentioned upright 34 has an upright 43 fixed therewith and extended to rain bin 2i. It will thus be evident that in effect grain bin 2! is carried from four columns extending entirely through the main body portion 15 and supported directly upon base member 24 which is firmly anchored to axle 23 and steadied by draw bar 18. Grain bin 2| is thus substantially supported, rigidly braced and prevented from seriously racking the thresher structure, and this with a minimum of material and weight for the reason that the major portion of up rights 34, 35, 36 and 3'! is already in the machine for other purposes. Base 24 and uprights 31, 40; 35, 4]; 36, 42 etc. thus constitute a central substantially vertical wheel supported stress bearing structure from which the major parts of the combine are supported, as will appear.

Body portion l5 comprises for the most part the threshing and separating portion of the combine which is located generally to the rear of the frame-work defined by base portion 24 and uprights 34, 3.5, .36 and 31. Thus a frame member 44 extends rearwardly substantially in line with above mentioned horizontal portion 38 and bends downwardly at 45 to follow the desired contour of separator housing 46. Upright 35 has a portion 41 extending rearwardly and joining with upright 34 in a manner similar to that described in connection with portion 33 and upright 36. A member 48 extends rearwardly from portion 4-? in a manner similar to above mentioned portion 44, defining the opposite side of separator housing 4'6.

A frame member 49 extends substantially horizontally between uprights 36 and 31 substantially at the desired level of the bottom of separator housing 46 and a member 53 extends rearwardly from member 49 to define the lower margin of separator housing 46. In similar manner a member 5| extends between above mentioned uprights 35 and 34 and a member 52 extends rearwardly from member 5|. These members therefore define a rea-rwardly projecting, overhanging, or cantilever separator housing.

In the present instance an upwardly extending diagonal member 53 is carried by member 49 and portion 38, and serves as a support for a cylinder bearing generally designated as 54. In similar manner a member 55 extends between member 5] and portion 4'! and serves as a support for a cylinder bearing 56.

As will be understood, the usual grain pan 51 and cleaning shoe 58 are carried by above mentioned members 49, 50, BI and 52 as is separator housing 46. A harvester pivot plate or support 59 similar to above mentioned support 39 is carried by upright 35 and from which header portion 20 is suspended as will appear. It will thus b apparent that in general the major parts of the machine are carried from above mentioned uprights 34, 35, 33 and 3! and base portion 24, although it will be understood that certain minor parts of the machine may be carried in other ways for convenience and also that a limited amount of extraneous bracing may be advisable and used within the contemplation of the invention. For example, braces 65] and BI in the present instance extend upwardly from the junction of portions 29 and 30 with axle 23 to the points of attachment of portion 49 with uprights 35 and 31 respectively. These braces together with portions 29 and 33, as will be apparent, define a series of triangles so disposed as to resist any tendency toward relative twisting movement between grain bin 2| and base portion 24, thus furnishing a substantially torsionally rigid frame unit for the attachment of the several parts.

A brace 62 is also preferably provided between member 50 and the point of attachment of braces 60 and SI to axle 23 and which serves to prevent weaving of the rear end of separator housing 46.

The support for header is as follows. Pivot bearings 63 and 94 are carried respectively by plates 39 and 59, as above set forth, and pivotally support a feeder house 65 generally rectangular in cross-section and preferably, although not necessarily, of gradually increasing depth forwardly of bearings 63 and E4. Feeder house 65 extends forwardly and downwardly, and in the present instance is rigidly connected with an auger trough or cross conveyor housing 66. Housing 66 extends laterally, in the present instance to the right of housing 95, referring to the normal direction of progress of the machine, the two comprising a substantially rigid harvester unit extending forwardly of the central portion constituted by uprights 34 to 31 and substantially balancing the rearwardly overhanging portion 45 of separator housing portion I5. Cross conveyor housing 66 in the present instance comprises a trough-like element 66a, Fig. 14, open at the front 69b of the combine and having a cutter bar generally designated as 6'! carried by the lower forward edge thereof and Within which rotates an auger conveyor generally designated as 98. Suitable conveying means generally designated as 69, Fig. 2, is disposed within feeder house 65 and a reel generally designated as 19 is carried by trough portion 66, all as will be described in detail presently. The structure thus far described would normally pivot downwardly about pivot bearings 63 and 64 so that the forward portion in the neighborhood of cutter bar 61 would rest upon the ground. Furthermore, the counterbalancing effect on separator housing portion I5 of the weight of harvester portion 20 would be lost. In the present instance the weight of harvester 28 is transmitted back to the framing through the counterbalancing mechanism, as will now be described.

A torque tube or element H is journaled at or near one end in a bracket or strut I2 extending forwardly from axle 23 and at the other end in a suitable bearing I3, Fig. 4, supported in the present instance on member 3| of draw bar l8. Torque tube H has an upwardly extending arm I4 pivoted at I5 to link 16 pivoted at 11 to a bearing or bracket I8 suitably fixed with a portion of feeder house 65. In similar manner an arm I9, Fig. 1, extends upwardly from torque tube II in the neighborhood of bracket I2 and is pivotally connected at 80 with a link BI pivotally connected at 82 with a bracket or bearing 83 fixed with auger trough 66. It will now be apparent that clockwise rotation of torque tube II, as seen in Fig. 1, will push forwardly through links I6 and 8! and cause upward rotation of harvester 20 about pivot bearings 63 and 64. It will also be apparent that the reaction of the weight of harvester 20 will be exerted backwardly against links BI and I6 and forwardly against bearings 63 and 64, thereby tending to rotate the whole'combine structure, about axle 23 as a pivot, in a clockwise direction, thus tending to counterbalance the tendency of separator portion I5 to cause similar rotation in a counterclockwise direction.

Torque tube II as more particularly seen in Fig. 2, has an arm 84 thereon extending upwardly through an opening 85, Fig. 4, in a deck portion 86 of draw bar i8, arm 84 being pivot ally connected at 81 with a counterbalancing spring 88 of any suitable or well-known type having a tension member '89 such for example as a threaded rod anchored in a bracket 90 by a nut 9i, tension in spring 88 being readily adjustable by manipulation of nut 9| as will be apparent. In this manner, a continuous turning effort is exerted on torque tube II in the proper direction to tend to support harvester portion 29.

Torque tube II and its attached parts form a convenient means for adjusting the height of harvester 2D, in the present instance a lever 92 being pivoted at 93 to a quadrant 94 suitably fixed at 95 to draw bar I8. Lever 92 is provided with latch mechanism 96 of well-known form for fixing it in desired position on quadrant 94 and a link 97 is pivoted at 98 to lever 92 and connected as by a slot 99 in the present instance to above mentioned pivot 91 on arm 84. In practice, spring 88 is adjusted to counterbalance the major portion of the weight of harvester 29 so that the harvester will tend to rest lightly on the ground with lever 92 in its extreme upward position. Downward movement of lever 92, by pulling through link,9'l, will cause counterclockwise rotation of torque tube ll as seen in Fig. 4, and raising of harvester 20. In the event that the harvester encounters an obstruction it may rise independently of any movement of lever 92 with consequent forward movement of arm 84, moving forward freely in slot 99.

As particularly apparent in Fig. 4, additional braces to supplement the general structure heretofore described are provided. Thus a brace I90 extends from a fastening Iilfla on upright 4| forwardly and downwardly to an anchorage IIJI on draw bar I3, thus avoiding extreme torsional stresses in the juncture of draw bar I8 with base 24, A brace I92 extends from horizontal frame portion 5I outwardly and downwardly to an anchorage I93 on draw bar portion 3|. While the structure disclosed and the various struts, braces, etc., are theoretically rigid, actually they are somewhat flexible because of necessary weight restrictions, and it should be understood that additional braces may be supplied as necessary to stiffen the structure without departing from the principles of the invention which, insofar as the general structure is concerned, reside in the major framing elements and their peculiar relation to each other as hereinbefore set forth.

In the case of machines built according to the present invention in the larger sizes the extension of the auger trough to the right of the feeder house may be too great to be satisfactorily supported merely by the pivot bearings 63 and 64 in conjunction with links it and 9!. Fig. 5 shows a modification of the construction which is adapted to give additional support to these longer harvesters or headers.

Thus a column, strut or brace HM extends forwardly and upwardly from an axle 23a corresponding substantially to above mentioned axle 23 and supported on a wheel lid, and is fortified against forward deflection by a brace 35 extending rearwardly to a suitable anchorage I96, Fig. 6, on the separator housing, conveniently on an upright 36a. Strut N34 has a pivot It? at the upper end thereof, with which is engaged a pivot plate I08. The position of strut I94 is so chosen that pivot I91 is disposed substantially in alignment with pivot bearings 63a and 64a, Fig. 5, corresponding with above mentioned pivot bearings 63 and 64, Fig. 1, so as to provide a third pivot point spaced substantially from the feeder house 65a. Pivot plate I 98 supports or locates the outer portion of an auger trough 66a in proper relation to the common center line of pivot I01 so as to prevent distortion and sagging.

For this purpose a strut I09 extends forwardly from pivot plate I85 to an anchorage iii) on trough 85a, and additional struts or braces III and H2 extend from pivot plate N33 to trough tea. at points respectively adjacent feeder house EEG. and in the neighborhood of the outer end of trough 55s. A strut H3 also extends downwardly and forwardly from pivot plate Hit to an anchorage I' l, Fig. 6, on trough 65a.

Brace H2 is preferably adjustable in length, in the present instance comprising two sections H5 and H6, section IIS being provided with a plurality of holes I l1i I1, one of which may be engaged by a bolt or the like IIll for fixing the effective length of the assembly. Adjustment of the length of member IE2 will exert a twisting tendency upon auger trough 66a, thereby raising or lowering the outer end of the cutter bar and obtaining the desired alignment thereof with the ground.

Auger trough 65a preferably comprises two separable sections 5 I9 and 520 united in any suitable manner, as by a flange joint generally designated as If so that section I28 may be removed if desired to make the machine narrower for transport. In this event the auger and reel are removed and carried on the machine, or in any other convenient manner.

Another point of novelty resides in the general arrangement of the driving mechanism for the machine. Substantially all threshing machines have a fan of some sort, in the present instance generally designated at I22, Fig. l, and having a shaft I23 supported in the present instance on diagonal braces as 24 and I25, Fig. 4. As seen in Fig. '1, bearings of any suitable type as I26 and E21 support fan shaft 523 respectively from braces E24 and {2a. In. the present instance fan shaft 523 is made sufficiently strong to serve as a main power input or countershaft for all the drives on the machine.

Machines of this character are sold both as self-contained, self-operating units, and as units to be operated from a tractor through a power take-off shaft. These machines are customarily made up in advance of consumer demand and it is difficult to know what percentage will be sold as self contained and what percentage will be sold as power take-off machines. By virtue of the present invention, the machine may be manufactured complete as far as the power source, and either type of power may be readily added at the time of sale and without any material changes in the manufactured construction. This, as will appear, is accomplished either by connecting a suitable power take-01f shaft to one end of fan shaft I23 or by mounting an engine adjacent the opposite end of shaft I23 and connecting a drive from the engine to the shaft, in accordance with the wishes of the purchaser.

Returning first to the power take-off arrangement, as seen in Fig. 1, a stub shaft I28 extends from the rear of tractor It and is suitably connected for driving by the tractor engine in wellknown manner. Stub shaft i223 connects, through a universal joint shaft of well-known form generally designated as I29, with a power take-off shaft generally designated as I38, supported by a bearing I3i carried by a support 32 on draw bar I8. As more particularly shown in Fig. 8, shaft 38 is enclosed within a torque tube 133 fixed in any suitable manner as by bolts I34 with a cover plate or cap I35 of a housing I35, in which is journaled in suitable bearings as I3Ba and I351), a stub shaft I31. :Shaft I30 in the present instance is made hollow to reduce weight, and a steady-bearing I38 is provided intermediate the length of shaft I30. In the neighborhood of the inner end of shaft I30 a bearing I39 supports the shaft in desired relation to stub shaft I31. Interengaging gears I49 and I il, respectively on shafts I30 and I3! communicate the drive from shaft I30 to shaft I31. Housing I35 is suitably supported on draw bar I8, for example being rockingly held in suitable apertures in plates I42 and I43, Fig. '7, the tendency of gear I40 to cause rotation of housing I36 (Fig. 8) about shaft I31, being resisted by torque tube I33.

Above mentioned support I32 is preferably made adjustable in height, as appears in Fig. 9, comprising an upper section I44 and a lower section I45 connected as for example by bolts {56-446. Additional holes as I41 are provided for bolts I45 for changing the height of bearing 33 to suit various tractors with which the combine may be used or for other reasons. This adjustment is provided without other expedients than the rocking support of housing I 36 in plates hi2 and I43.

Stub shaft I31, Fig. '1, is united with above mentioned fan shaft I23 in the present instance by means of a coupling I48 clamped about the shafts by bolts or the like I49I43, keys ISO-I50 being interposed to assure positive driving relation between the shafts and coupling.

A sprocket I5I or the like fixed with shaft I23, in the present instance beyond or outside of bearing 26 drives, through a chain I52 (Fig. 1) and a sprocket E53, a shaft I54, Fig. 3, carrying a threshing cylinder I55.

Returning to Fig. '1, a sprocket I56 forming part of an overload release clutch of Well-known construction, generally designated as I51, drives, through a chain I58 as more particularly shown in Fig. 4, a sprocket I59 on a shaft I60 which operates above mentioned feeding apparatus 69 as will appear. Chain I58 also drives a sprocket I6I which actuates an overload release clutch generally designated as I62, and a shaft I63 which actuates a beater I54, Fig. 3. Shaft I60 also has a. sprocket IE5 which actuates, through a chain I66, a sprocket I51 on a shaft I68 forming the axis of above mentioned auger 68 as will appear.

Chain I53 in the present instance passes over an idler or tightening sprocket I69 adjustably supported in a bracket or the like I10, and sprocket I69 has fixed therewith a sprocket I1I engaged by a chain I12 driving a sprocket I13 which actuates, through an overload release clutch generally designated as I14, a shaft I15 carrying above mentioned reel 10. Chain I12 is maintained in a suitable condition of tension by a tightener generally designated as I16 including a lever I11 pivoted at I18 to a portion of feeder housing (55 and urged rearwardly by a spring or the like I19. Lever I11 carries a sprocket I over which passes above mentioned chain I12. A sprocket I8I is journaled in fixed relation in the neighborhood of pivot I18 and beneath which above mentioned chain I12 is directed. It will thus be apparent that all of the drives in the machine are actuated from above mentioned fan shaft I23.

Certain other auxiliary drives originate in one or another of the above mentioned shafts, for example, shaft I63 of above mentioned beater I64 extends entirely through the machine and has a 9 pulley I82, Fig. 1, driving through a belt I83 and a pulley I84, suitably journaled on separator housing 46, Fig. 1. Pulley I84 is in driving relation with a pulley I85 which drives, through a belt I86, a pulley I81, connected by a shaft I88 with a straw spreader I89, idlers I90 and I9I being supportedon body portion I to provide for carrying belt I86 around the rear of body portion I5. Shaft I63 carries also a sprocket I92 driving, through a chain I93 and a sprocket I94, a shaft I95 actuating an unloading auger I95 more particularly shown in Fig. 3.

Other drives to auxiliary and supplementary mechanism originate from above mentioned overload release clutch I51, Fig. 4, but which it is unnecessary to show and describe further as they are of well-known construction and form no part of the present invention, for example, a sprocket I91 driven through above mentioned overload release clutch I32 actuates, through a chain I98, a sprocket I99 on a shaft 200 which actuates in well-known manner clean grain auger 20I, Fig. 3, and a clean grain elevator generally designated as 202, Fig. 4.

2 Above mentioned sprocket I61 also constitutes a crank for a pitman generally designated as 203, which actuates above mentioned cutter bar 61 as shown more particularly in Figs. and 11. Sprocket I61 has fixed therewith a pin 204 on which is suitably retained a bearing 205 which in the present instance is of the anti-friction self-aligning type. A housing 206 fits about bearing 205 and provides an opening 201 for the entrance of pin 204, the opening being of such a size as to allow limited misalignment of housing 206 relatively to pin 204. Housing 206 is fixed with and constitutes part of above mentioned pitman 203.

Pitman 203 as suggested comprises housing 206, a shaft or bar 200 and a clamp or socket portion 209, the bar and socket being of well-known con struction so that it is unnecessary to describe them further.

Socket portion 209 engages a ball element 2I0, Fig. 12, fixed on a laterally extending arm 2H carried by a sleeve portion 2I2. Sleeve M2 in thepresent instance is journaled on a pin or the like 2I3 supported in a shelf-like element 2I4 carried by above mentioned housing 65 and a bracket 2I5, also carried by housing 65. Sleeve 2I2 also has a generally rearwardly extending arm 2; carrying a ball element 2II embraced by a clamping portion 2I8 connected with a bar 2 I9 for actuating sickle 220, Fig. 11, bar 2I9 being united with sickle 220 in any preferred manner as by a clamp or connection 22I Sleeve 2I2 and its arms HI and H6 accordingly constitute an offset bell crank which serves to transmit the motion of pitman 203 around the corner of housing 65 to sickle 220.

Sickle 220 forming no part of the present invention need not be further described.

Referring to Fig. 10, shaft I68 constitutes a journal for above mentioned auger 68. In the present instance, shaft I68 does not run entirely through auger 30 but is engaged in a sleeve 222 preferably of angular cross section, carried by spaced plates 223and 224, sleeve 222 being welded or otherwise suitably fixed with plates 223 and 224 and the whole constituting a spool-like element inserted in the tubular core portion 225 of all auger 68, -shaft I68 having a portion I68a of a ing elements 22'l and 228, shaft I is very strongly held in desired position against the reactions of pitman 203, bearing 226 being very solidly held by brackets 229, 230, etc. Also, because of the cross section of portion I69a and sleeve 222, auger 68 may be readily disassembled from shaft I68 by a mere endwise movement, shaft I68 remaining in place in bearing member 226. In this way, a rigid connection is provided between shaft I68 and auger 63, core portion 225 being very rugged, and it becomes unnecessary to run shaft I68 through the length of auger 68. Shaft I63 is journaled in a bearing element 226 in the present instance constituting a sleeve-like member carrying anti-friction bearing units generally designated as 221 and 228.

Bearing element 223 has upper and lower bracket members 229 and 230 clamped by bolts 23I and 232 against brackets 233 and 234 carried by above mentioned housing 65. Brackets 233 and 234 are spaced somewhat from brackets 229 and 230 and spacers, Washers, or the like 235 and 236 are introduced in order to afford a solid structure for engagement by bolts 23I and 232. Vertical adjustment of auger 60 may be accomplished by shifting one or more of washers 235 on to bolt 232 to raise the auger, or shifting one or more of washers 236 on to bolt 23I in order to lower the auger. This adjustment is sometimes needed to compensate for different crops or conditions.

The outer end of auger 63 is preferably made similar. A spool-like element 231 carries a shaft 238 journaled in a bearing of suitable type 239 for supporting the outer end of the auger. As more particularly shown in Fig. 1, bearing 239 has a flange portion 240 fixed as by bolts 24!- 24I with a frame element 242 of harvester portion 29. As seen in Fig. 13, bolts 2 may be engaged in one or another of a plurality of holes 243-243 to obtain desired adjustments of bearing 239. In this manner a secure support for rotatable auger 63 is obtained and at the same time a solid and durable drive for sickle 220.

As seen in Figs. 1 and 14, auger 68 is provided within trough 20 with a stripper rail generally designated as 244. instance comprises an angle iron or the like 245 secured to auger trough 20 in the rear of auger 60 so as not to interfere with the access of material to the front and top of the auger. The rotation of auger 68 would naturally tend to move material beneath the auger and upwardly in back of the auger. Such upward movement is prevented by stripper 224 and material is forced to follow along lengthwise of the auger and into the feeder housing 55. Angle iron 245 has a strip 246 suitably secured thereto as by bolts 23? engaged in slotted holes or the like to provide for adjustment of strip 2% toward and from auger 60. Between the vertical adjustment provided in the auger, and the adjustment of strip 246, satisfactory relations are provided to suit the various conditions of crops harvested by the machine.

As seen in Fig. 3, auger 38 after entering feeder housin 35 has paddle-like portions 228 and 249 which tend to throw material away from auger 08 and impel it upwardly along an inclined deck 25!) constituting the floor of feeder housing 65. Above mentioned feeding mechanism 39 takes the material and carries it upwardly the rest of the distance on deck 250.

Paddle portions 248 and 249 are assisted in their action by a bafiie portion 25041, which, as more particularly seen in Fig. 3, is inwardly displaced from the front of feeder house to form an ill- Stripper 244 in the presentv wardly tapered space in which paddle portions 248 and 249 can operate. Baffle 256aacts to gather any material moving along the front of auger 68 in the feeder house and, due to its taper, to force such material between paddle portions 25-8 and 249. Material is thus promptly cleared out of the feeder house, and not allowed to accumulate in front of the paddle.

Feeding mechanism 69 is of the undershot raddle rake type, the rake being generally in the form of spaced endless chains connected by cross slats. As seen in Figs. 3, l5 and 16, a lower pair of sprockets 25I and 252 are fixed on a shaft 253 journaled in appropriate bearings supported in feeder housing 65 as will appear. A pair of upper sprockets 254 and 255 are supported on above mentioned shaft I653. Chains 256 and 251 extend respectively about sprockets 25I and 254 and 252 and 255 and also about tightener sprockets 258 and 25.9, preferably journaled on a shaft 256. Chains 255 and 25.1 are connected at intervals by cross slats 2IiI--25I which are of suitable type, in the present instance channel bars with their open sides facing the exterior of the chain.

It will be noted that cross slats 25I travel in close proximity to deck 255 so that material impelled part way up the deck by paddle portions 243 and 249 is caught between deck 250 and slats 25I and compacted and compressed to a certain extent into a pad or ribbon-like body which slides,

over the deck in such a manner as to be under the complete control of the slats and chains. At the upper end of deck 256 the ribbon of material passes directly to cylinder I55, there being no necessity for any beaters, feeders or th like between conveying means 69 and cylinder I55. It is impossible for cylinder I55 to draw in more than the desired amount of material, because of the firm grip of slats 26 I on the. compressed ribbonlike body of material being fed to the cylinder.

A concave of suitable type, generally desig nated as 262, is supported from members 49 and El in working relation to cylinder I55 and in the present instance comprises a plurality of transverse upwardly open channel bars 263-453 fixed in the present instance on a grating, generally designated at 265, so that threaded kernels may drop through in well-known manner. The space between grating 25% and deck 255 is substantially closed by a plate 255 which in the present instance is hinged at 266 to members 59 and and retained upwardly beneath grating 264 by a detent of suitable or well-known form, generally designated as 26's. In the event that a stone or other solid object is inadvertently introduced into the ribbon of material being fed to cylinder I55, it will normally be impelled against plate 255, the impact disengaging detent 251, so that plate 265 will be forced downwardly to the dotted position to allow the object to escape. Plate 265 is easily restored to working position whereupon operations can be resumed. Other means such for example as shear pins are contemplated for bolding plate 255.

A closure strip 268 hinged at 26-9 to deck 250 rests upon plate 265 and prevents escape of material between deck 250 and plate 265 as housing 65 is swung about shaft I66 forraising or lowering cutter bar 61.

Strip 268 preferably, although not necessarily, is provided with a plurality of upstanding blades 21621@ and which are effective in cutting up any long and stringy material into short lengths so as to avoid any tendency toward, wrapping of same about cylinder I55, it being understood that 12 blades 215 may'be omitted where such cutting action is. not necessary, as more particularly shown in Fig. 18.

Above mentioned shaft 265 extends outwardly through slots as 211 in housing 65 and is adjustable by means of bolts or the, like 212 carried in brackets 223, the bolts extending through shaft 266 and being threadedly engaged therewith so that adjustment of the bolts will cause movement of shaft 266 and sprockets 258 and 255 in a chain tightening direction. In the present instance slot 21I. is closed by a plate 214 movable with shaft 255. It will be understood that the construction of this tightening device is duplicated on the opposite end of shaft 256.

Cylinder I55 is adjustable, toward and fromv concave 262 by shifting of bearings 54 and 56. These adjustments being identical, only one will be described. Thus as seen in. Fig. 16, support member 55 consists of an angle iron having an outwardly turned flange 215 against which is bolted bearing 55. An adjusting strip 216 is clamped on the opposite side of flange 215 from bearing 55 by bolts 211--211, the bolts traversing slotted openings 218 in flange 215. Bolts 211, however, are relatively closely fitted in strip 215. Strip 216 has openings 2192 19 which are spaced from each other in increments. slightly different from the spacing of other openings 280-280 in flange 215. A bolt 28l traverses registered openings in strip 216 and flange 215 and may be placed in any position where one of openings 219 registers with one of openings 286. Changing bolt 25! from one opening to another will require a very slight movement; of strip 216 with a corresponding slight movement of bearing 56, bolts 211-211 being loosened during such adjustment. Tightening of all the bolts will lock bearing 56 positively in the new position.

Cylinder I55 is preferably, although not necessarily, of the rasp bar type, in. the present. instance comprising a pair of heads; 282 and 283, Fig. 17, fixed on above mentioned shaft I54 in suitable or well-known manner as by collars. 284 and 285. Heads 282 and 283 are joined at intervals by strips. 285-286. Strips 286 may be made of any suitable type but in the present instance are formed as shallow channel bars opening toward the interior of the cylinder. They are attached as by rivets 281-281 to heads 282. and 283 and serve as supports for channel, bars 28828B. Channel bars 288 constitute the major active elements of the cylinder and are placed with their open sides facing outwardly so as to present relatively sharp edges to the incoming material. In the present instance channel bars 253 are arranged to have a slight return bend substantially at the, middle of. their length. The angular disposition of bars 228v results in a wiping action of these bars on the material between themselves and concave bars 268 which is less abrupt than the effect would be if the barswere placed parallel to shaft I54, although it is to be understood that many of the advantages of the invention could be realized Without placing the bars on the cylinder in this particular manner, it being understood that the invention is not to be taken as limited by anything in this description or in fact in any manner.

Above mentionedv beater I64, Fig. 3, receives a large amount of the material flying off of cylinder I55 and prevents it being thrown too far to the rear in casing I5, the material being stopped by the beater and forced downwardly onto straw racks 289.

Straw racks 289 are of novel construction, comprising in the present instance, as shown in Fig. 19, side plates 298 and 29I, connected by cross slats 292-292 in the present instance comprising sheet metal strips, the strips being perforated and receiving longitudinal elements formed of wires 283-288. Owing to the extreme thinness of the sheet metal strips and wire, a very eflicient straw rack is provided in which the percentage of openings for the passage of grain is much greater than in prior known constructions.

Straw racks 288 are supported for reciprocating movement within separator housing I in well-known manner and above mentioned grain pan 51 is preferably, although not necessarily,

supported in part and actuated by the same mechanism, generally designated as 294. Cleaning shoe 58 may be of any suitable type within the contemplation of the invention having sieves 295 and 286 and a return pan 29'! leading to above mentioned grain auger 28I. Above mentioned fan I22, as indicated, supplies a blast to sieves 285 and 298 and also to straw rack 289 in the manner common to this type of machine.

Straw rack 289 in the present instance comprises a pair of rack units 298 and 289 which in the present instance are supported on cranked portions of a shaft 388 driven by above mentioned pulley I84, Fig. 1, rotation of the shaft causing a combined oscillating and reciprocating movement of rack units 288 and 289 in well-known manner.

vshaft 388 as more particularly shown in Fig. 20, has a crank portion 38! and a pin 382 connected by a pitman of suitable type 383 with a pin 384 forming part of a bell crank generally designated as 385. Bell crank 385 is in the present instance fixed with a rock shaft 388 which passes through housing I5 and is journaled for rocking movement in suitable or well-known manner. Bell crank 885 also has a pin 381 fixed therewith for supporting above mentioned cleaning shoe 58, pin 30! extending within a sleeve element 888 fixed with a plate 389 to which shoe 58 is fastened. A bushing 8 I 8 of flexible elastic rubber or rubber-like material is interposed between pin 88! and sleeve 888 and serves as a non-metallic connecting means between bell crank 885 and shoe 58. V

In operation, rotation of shaft 388 causes 0scillating of hell crank 885 as will be understood and this in turn causes reciprocating movement of shoe 58, the slight change in angularity between pin 38'! and sleeve 888 being absorbed by distortion to bushing 8I8 so that no frictional contact between working parts is present at this point. Furthermore, bushing 8I8 is yieldable to some extent in any direction and prevents or reduces in marked degree any hammering effect that might otherwise develop in the rapidly reciprocating mechanism.

Grain introduced to clear grain auger 28I as indicated, is transmitted by elevator 282, Fig. 4, to above mentioned grain bin 2 I. sired to empty bin 2I this is done by above mentioned unloading auger I98 as indicated in Fig. 3. As more particularly shown in Fig. 21, auger I96 is supported by means of shaft I95 in a bearing 3| I supported in grain bin 2| and a bearing 3I2 supported in a delivery tube or housing 8I3, extending laterally from grain bin 2I. Auger I96 may be jointed at 814 so that the outer sectionmaybe removed along with tube section 8I3 to narrow the machine for transportation. Shaft I95 extends through and has journaled thereon When it is dea above mentioned sprocket I94 and beyond the sprocket comprises a square or similar angular section 8| '5. A collar 8 I 8 is slidably arranged on section 3I5 and has clutch teeth 8|! engageable with corresponding teeth 3| 8 on sprocket I94. Collar 8I8 may be shifted on portion (M5 by means of a shipper 8I8 carried by a shifter rod 828 slidably supported in brackets MI and 822 depending in the present instance from grain bin ZI. A spring 328 compressed between above mentioned bracket 82I and an abutment 324 on the rod tends to retain collar 8I6 in disengaged position.

At the outer end of tubular section 8I3 a cover plate 825 is provided, pressed there-against by a spring 828 and which may be moved laterally away from tubular section 8I8 by a handle portion 82?. With a Wagon or other suitable receptacle beneath tubular portion 8I8, removal of cover 825 and engagement of clutch collar 8I6 with sprocket I88 will cause rotation of auger I96 and prompt emptying of grain bin 2|.

The weight of grain in bin 2i, resting on auger I 96 would tend to cause unnecessary consumption of power in rotating the auger, and to obviate this a shield a is supported in bin 2| above auger I88. Grain readily finds its way to auger I 88 at either side of shield I88a as readily apparent from Fig. 3, while the bulk of grain is not permitted to rest directly on the rotating auger.

In the event of these machines being used with tractors of limited power they are readily equipped with their own engines as above suggested. Referring to Fig. 6, a base in the present instance comprising a box-like element 321 is mounted on portions 28a and a cross member 328 or other convenient portions of base frame 28a and an engine generally designated as 828 of suitable type forming no part of the present invention is mounted on base member 32?. In the present instance engine 829 has a carburetor intake 888, a cooling air intake 88I, a iiy wheel housing 882 and an exhaust outlet 888. Engine 828 also has a sprocket 888 connected by a chain 385 with a sprocket 888 fixed on a fan shaft I28a corresponding in substantially all respects to above mentioned fan shaft I23. As above described, motion imparted by engine 828 to fan shaft I 28a will be transmitted to all the other working parts of the machine, it being understood that in such instance as when engine 8'29 is driving fan shaft I 28a, the above described power takeoff mechanism will be disconnected or omitted entirely from the machine.

It will thus be apparent that it is unnecessary in setting up one of these machines for either power take-off or separate engine drive to disturb any of the drives of the machine in any manner, and while it is contemplated that either one type of drive or the other will ordinarily be supplied, it is entirely within the invention to supply both engine and the power take-off on the same machine, and which may be used alternatively as conditions require.

The operation of the machine is thought to be clear from the above description, no further description thereof being necessary, except to say that the source of power input is connected to the fan shaft, and from which all other drives in the machine originate. The grain is cut by sickle Bl, transmitted into feeder house 65 by auger 68, and fed in the form of a compressed ribbon beneath feeder 69 to cylinder I55. Feeder 69 prevents uncontrolled feeding and slugging and effects feeding of the cylinder without the employment of auxiliary beaters or other expedients. In the event of long straw, stringy weeds or the like, the same are cut into short lengths by knives 2w. Flying kernels are caught by beater I54, and the grain is extracted from the straw by straw racks S and 299. Chaif is re moved in cleaning shoe t in well-known manner, a blast being supplied by fan i212. Clean grain is deposited in bin 2 l, and readily emptied therefrom by auger I95.

The above being a full and clear description of an illustrative embodiment of the invention, what is claimed as new and desired to be secured by Letters Patent of the United States is:

1. In a harvester-thresher the combination of a substantially rectangular, uniplanar horizontal base portion disposed transversely to the direction of progress of the harvester-thresher, ground engaging supports at the ends of said base portion in supporting relation thereto, a drawbar substantially coplanar with, rigidly fixed to, and substantially normal to said base, a plurality of spaced apart substantially vertical columns fixed on and extending upwardly from said base, A

a grain bin in engagement with and supported on the upper extremities of said columns, a. threshing cylinder and cleaning fan disposed between said base portion and said grain bin and also between said spaced-apart columns, and supported at least in part from said columns, a gen-- erally forwardly and downwardly inclined feeder house and harvester part hinged to certain of said columns at a location above said base, means onsaid base pressing forwardly against said harvester part and reacting backwardly against said base to maintain said feeder house and harvester part against downward and rearward swinging, said harvester part tending to cause forward tilting of said base and upstanding columns, and a separator housing portion fixed to others of said columns and extending rearwardly therefrom in cantilever relation tending to cause rearward tilting of said base and upstanding columns, said separator housing and said feeder house and harvester part being so proportioned and positioned that the tendency of the one to cause rearward tilting, and the tendency of the. other to cause forward tilting of said base and upstanding columns, substantially balance each other, any resultant tilting tendency caused by any difference in such tilting tendencies being sustained by the rigid connection of said drawbar to said base.

2. In a harvester-thresher the combination of a substantially rectan ular, uniplanar horizontal base portion disposed transversely to the direction of progress of the harvester-thresher and having front and rear transverse members, ground engaging supports at the ends of said base portion in supporting relation thereto, a drawbar substantially coplanar with, rigidly fixed to, and substantially normal to said base at one end thereof, a plurality of spaced apart substantially vertical columns fixed on and extending upwardly from. the front transverse member of said base, a plurality of spaced apart substantially vertical columns iixed on and extending upwardly from the rear transverse member of said base, a grain bin in engagement with and supported on the upper extremities of said columns, a threshing cylinder and cleaning fan disposed between said base portion and said grain bin and also between said spaced-apart columns, and supported at least in part from said columns, a generally forwardly and downwardly inclined feeder house and harvester part hinged to the front plurality of columns at a location above said base, means on said base pressing forwardly against said harvester part and reacting backwardly against said base to maintain said feeder house and harvester part against downward and rearward swinging, said harvester part tending to cause forward tilting of said base and upstanding columns, and a separator housing portion fixed to the rear plurality of columns and extending rearwardly therefrom in overhanging relation tending to cause rearward tilting of said base and upstanding columns, said separator housing said feeder house and harvester part being so proportioned and pcsitioned that the tendency of the one to cause rearward tilting, and the tendency of the other to cause forward tilting of said base and upstanding columns, substantially balance each other, any resultant tilting tendency caused by any difference in such tilting tendencies being sustained by the rigid connection of said rawbar to said base.

3. In a harvester-thresher the combination of a substantially rectangular, uniplanar horizontal base portion disposed transversely to the direction of progress of the harvester thresher, ground engaging supports at the ends of said base portion in supporting relation thereto, a drawbar substantially coplanar with, rigidly fixed to, and substantially normal to said base, a plurality of spaced apart substantially vertical columns fixed on and extending upwardly from said base and constituting therewith a substantially vertical stress bearing structure, a grain bin in engagement with and supported on the upper extremity of said stress bearing structure, a threshing cylinder and cleaning fan disposed between said base portion and said grain bin and. also between said spaced-apart columns, and supported from stress bearing structure, a generally forwardly and downwardly inclined feeder house and harvester part hinged to said stress bearing structure at a location above said base, means on said stress bearing structure pressing forwardly against said harvester part and reacting basin wardly against said stress bearing structure to maintain said feeder house and harvester part against downward and rearward s inging, said harvester part tending to cause forward tilting of said stress bearing structure, and a separator housing portion fixed to said stress bearing structure and extending rearwardly therefrom in cantilever relation tending to cause rearward tilting of said stress bearing structure, said separator housing and said feeder house and harvester part being so proportioned and positioned that the tendency of the one to cause rearward tilting, and the tendency of the other to cause forward tilting of said stress bearing structure, substantially balance each other, any tilting tendency caused by an difference being sustained by the rigid connection of said drawbar to said base.

NORMAN R. @AUSE. SHERMAN C. HETH.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 2,1l7,26'7 Pierson Feb. 14, 1939 2,169,472 Oehler et al Aug. 15, 1939 

